Paradoxical Regulation of Allogeneic Bone Marrow Engraftment and Immune Privilege by Mesenchymal Cells and Adenosine.

Although mesenchymal stromal cell (MSC) transfer has long drawn attention owing to its immunosuppressive potential to treat immune-mediated diseases, the role of endogenous MSCs in immune regulation in vivo has remained largely unclear. MSCs constitute the hematopoietic stem cell (HSC) niche, perhaps contributing to immune protection of HSCs, termed immune privilege. Our recent study demonstrates that immune privilege of HSCs is endowed by niche-residential regulatory T cells (Tregs), which promote allogeneic HSC engraftment. This immune privilege depends on cell surface ectoenzymes CD39 and CD73 on niche Tregs, which generate extracellular adenosine, a nucleotide known to suppress immunity and potentiate Tregs. Another niche constituent, leptin receptor-expressing (lepr+) perivascular MSCs, also highly express CD39 and CD73, prompting us to study their roles in immune privilege. This work demonstrates an unexpected negative regulation of immune privilege by MSC-derived adenosine. CD39 deletion in lepr+ cells increased and potentiated effector memory-like niche Tregs, promoting allogeneic HSC engraftment. CD39 deletion in Tregs also activated niche Tregs, while abrogating engraftment. These observations demonstrate paradoxical effects of MSC-derived adenosine to activate immunity, revealing a previously undescribed dual roles of adenosine. Adenosine from both Tregs and MSCs inhibits niche Tregs, whereas adenosine from Tregs, but not that from MSCs, acts as an effector molecule of immune privilege.